JP2010019530A - Air conditioning system and communication traffic adjusting method - Google Patents

Abstract

An air conditioning system capable of setting a transmission interval of a transmission request to an appropriate value according to the number of indoor units without trouble.
An outdoor unit (20) and one or a plurality of indoor units (30, 31, 32) are connected via a predetermined network, and each indoor unit (30, 31, 32) is connected to an outdoor unit (20 ) Includes an indoor unit side communication unit (301, 311, 321) that transmits a transmission response to the transmission request from the transmission unit, and the outdoor unit (20) broadcasts the transmission request and receives the transmission response. An outdoor unit side communication unit (210) that performs communication, a traffic calculation unit (221) that calculates communication traffic in the network, and a traffic calculation interval setting that extends the traffic calculation interval for a predetermined time when the communication traffic is greater than a predetermined threshold A transmission request for setting a traffic calculation interval when the communication traffic is smaller than the threshold as a transmission interval of the transmission request. Comprising interval setting section (223).
[Selection] Figure 1

Description

  The present invention relates to an air conditioning system in which an outdoor unit and one or a plurality of indoor units are connected via a predetermined network.

  In recent years, in large-scale facilities such as buildings and condominiums, an air conditioning system is installed in which an outdoor unit is connected to a plurality of indoor units via a predetermined network, and the outdoor unit monitors the state of the indoor unit. In this case, the outdoor unit broadcasts a transmission request to the indoor unit at a predetermined transmission interval, and sends a status notification for notifying its own state from the indoor unit, thereby monitoring the state of the indoor unit. To do.

  By the way, since the outdoor unit transmits a transmission request at a predetermined transmission interval, when the number of indoor units is large, communication traffic increases due to a state notification transmitted from the indoor unit, and accurate communication becomes difficult. In such an air conditioning system, communication other than the transmission of the status notification is also performed. Therefore, an increase in communication traffic due to the status notification adversely affects other communications.

  Therefore, in the conventional air conditioning system, even if the maximum number of connectable indoor units is installed, a predetermined value that enables accurate communication is set as the transmission interval of the transmission request.

In addition, as prior art related to the present invention, a host computer, a remote monitoring device connected to the host computer via a communication line, a plurality of air conditioners connected to the remote monitoring device via a communication line, etc. And a remote monitoring system that suppresses communication traffic is disclosed.
JP 2002-281570 A

  However, in the conventional air conditioning system, the transmission interval is set based on the maximum number of indoor units connected, and the transmission interval suitable for the actual number of connected outdoor units is not set. There was a problem that there was no detailed monitoring.

  On the other hand, it is possible to artificially calculate the appropriate transmission interval from the actual number of indoor units connected when introducing the air conditioning system, and set the obtained value as the transmission interval, but this takes time and effort. When the number of indoor units increases afterwards, there is a problem that an appropriate transmission interval cannot be set.

  Further, in the remote monitoring system of Patent Document 1, communication traffic is suppressed by the remote monitoring device narrowing down the communication target only to the system designated by the host computer. The configuration is completely different from that of the present invention based on the premise of being incorporated into the system.

  An object of the present invention is to provide an air conditioning system that can set the transmission interval of transmission requests to an appropriate value according to the number of indoor units without trouble.

  An air conditioning system according to one aspect of the present invention is an air conditioning system in which an outdoor unit (20) and one or more indoor units (30, 31, 32) are connected via a predetermined network. When the unit (30, 31, 32) receives a transmission request transmitted from the outdoor unit (20), the indoor unit side communication means (301, 311) transmits a transmission response to the outdoor unit (20). 321), and the outdoor unit (20) broadcasts the transmission request and receives the transmission response transmitted from the indoor units (30, 31, 32). ) And, based on the transmission response received by the outdoor unit side communication means (210) until a predetermined monitoring period elapses after the outdoor unit side communication means (210) transmits the transmission request, Communication traffic in the network When the traffic calculation means (221) to be calculated, the communication traffic calculated by the traffic calculation means (221) is larger than a predetermined threshold, the extension means (222) for extending the monitoring period for a fixed time, and the communication traffic The traffic calculation means (221) calculates the communication traffic at the elapse of the monitoring period extended by the extension means (222) until it becomes smaller than the threshold, and the calculated communication traffic becomes smaller than the threshold. And setting means (223) for setting a monitoring period as a transmission interval of the transmission request (claim 1).

  According to this configuration, the monitoring period is extended until the communication traffic of the network reaches the threshold value, and the monitoring period when the communication traffic becomes smaller than the threshold value is set as the transmission interval of the transmission request. Therefore, it is possible to set an appropriate transmission interval according to the number of indoor units (30, 31, 32) without trouble, and the number of indoor units (30, 31, 32) connected increases afterwards. However, an appropriate transmission interval can be set without any trouble.

  In the above-described configuration, the traffic calculation means (221) has a predetermined pause period necessary for ensuring communication accuracy in the data time length of one transmission response received by the outdoor unit side communication means (210). It is desirable to calculate a value obtained by adding as a data time length of one transmission response, and calculate the communication traffic based on the calculated data time length.

  According to this configuration, since the communication traffic is calculated with the data length of one transmission response added to the pause period necessary for improving communication accuracy as the data length of the transmission response, the pause period The transmission interval can be calculated so as to be ensured.

  In the above configuration, the extension means (222) can extend the monitoring period until a predetermined upper limit value is reached. When the monitoring period is the upper limit value, the extension means (222) is calculated by the traffic calculation means (221). In a case where the transmitted communication traffic does not become smaller than the threshold value, it is desirable that the setting means (223) sets the upper limit value as the transmission interval.

  According to this configuration, it is possible to avoid a situation in which the transmission interval becomes too large and the outdoor unit (20) cannot finely monitor the state of the indoor units (30, 31, 32).

  The transmission response may be a status notification for the indoor unit (30, 31, 32) to notify its own status (Claim 4).

  According to this configuration, the outdoor unit (20) can monitor the state of the indoor units (30, 31, 32).

  The threshold value may be 50% (claim 5).

  According to this configuration, the transmission interval can be set so that the communication traffic does not exceed 50%.

  A communication traffic adjustment method according to another aspect of the present invention is a communication traffic adjustment method in an air conditioning system in which an outdoor unit (20) and one or a plurality of indoor units (30, 31, 32) are connected via a predetermined network. A transmission request step (S2) in which the outdoor unit (20) broadcasts a transmission request for transmitting a transmission response to each indoor unit (30, 31, 32). When each indoor unit (30, 31, 32) receives the transmission request, a transmission response step (S4) in which each indoor unit (30, 31, 32) transmits a transmission response to the outdoor unit (20). ) And the transmission response received by the outdoor unit (20) after a predetermined monitoring period elapses after the transmission request is transmitted by the transmission request step (S2). Based on the above A traffic calculation step (S7) for calculating communication traffic in the network, and an extension in which the outdoor unit (20) extends the monitoring period for a predetermined time when the communication traffic calculated in the traffic calculation step is larger than a predetermined threshold value. Step (S10) and the traffic calculation step (S7) when the outdoor unit (20) passes the monitoring period extended by the extension step (S10) until the communication traffic becomes smaller than the threshold. A setting step (S1) for executing the calculation of the communication traffic and setting a monitoring period when the calculated communication traffic is smaller than the threshold as a transmission interval of the transmission request. Item 6).

  According to the present invention, it is possible to set an appropriate transmission interval according to the number of indoor units (30, 31, 32) without trouble, and the number of connected indoor units (30, 31, 32) is a posteriori. Even if it increases, an appropriate transmission interval can be set without trouble.

    Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing a functional configuration of an air conditioning system 1 according to an embodiment of the present invention. The air conditioning system 1 has a refrigerant circuit in which three indoor units 30, 31, and 32 are connected to one outdoor unit 20 by refrigerant piping. As shown in FIG. 1, the outdoor unit 20 and the three indoor units 30, 31, and 32 are connected via a network so that data communication is possible. The outdoor unit 20 monitors the operating state of one outdoor unit and three indoor units constituting the air conditioning system 1. Moreover, although the air conditioning system 1 provided with one outdoor unit and three indoor units is illustrated here for simplification of illustration, the air conditioning system 1 having only one indoor unit may be used. The air conditioning system 1 may include a large number of outdoor units and indoor units. Moreover, another outdoor unit may be connected to the outdoor unit 20, and the air conditioning system 1 in which the indoor unit is also connected to the outdoor unit outside the figure may be used.

  The outdoor unit 20 includes an outdoor unit side communication unit 210, a calculation unit 220, a ROM 230, a RAM 240, and a timer unit 250.

  The outdoor unit side communication unit 210 broadcasts a transmission request to the indoor unit side transmission units 301 to 321. The transmission request is a signal for requesting transmission of a status notification for notifying the status of the indoor units 30 to 32, and is broadcast at a predetermined transmission request interval based on a clock signal generated by the timer unit 250. Is done.

  The calculation unit 220 includes a CPU (Central Processing Unit) and the like, and by executing a control program stored in a ROM (Read Only Memory) 230, as shown in FIG. 1, a traffic calculation unit 221 (traffic calculation means) The traffic calculation interval setting unit 222 (extension unit) and the transmission request interval setting unit 223 (setting unit) function.

  In the network of the air conditioning system 1, the traffic calculation unit 221 transmits the transmission request by the outdoor unit side communication unit 210 and the elapse of a predetermined monitoring period after the outdoor unit communication unit 210 transmits the transmission request. Data communication such as a transmission response received by the outdoor unit side communication unit 210 is monitored. The traffic calculation unit 221 calculates the communication traffic in the air conditioning system 1 during the monitoring period by integrating the data amount during the monitoring period and calculating the ratio of the integrated value to the communication capability of the network. A specific method for calculating communication traffic will be described in detail later.

  When the communication traffic calculated by the traffic calculation unit 221 is larger than a predetermined threshold, the traffic calculation interval setting unit 222 sets the monitoring period to a predetermined upper limit based on a clock signal generated by the time measuring unit 250. Extend in steps by a predetermined time unit. This upper limit value is the communication traffic when all the outdoor units and indoor units communicate when the maximum number of outdoor units and indoor units that can be connected is connected, and the communication traffic in the network of the air conditioning system 1 is maximum. It is set based on. A specific example of extending the monitoring period will be described in detail later.

  At the elapse of the monitoring period extended by the traffic calculation interval setting unit 222 until the communication traffic becomes smaller than the threshold, the transmission request interval setting unit 223 sets the extended monitoring period as the transmission request interval. In order to enable the outdoor unit (20) to closely monitor the state of the indoor units (30, 31, 32), the transmission request interval is significantly smaller than the upper limit value, for example, 5 minutes in the initial setting. The value is set to 1 minute, for example. A specific example of setting the transmission request interval will be described in detail later.

  The ROM 230 is composed of a non-volatile memory, and stores a control program for the air conditioning system 1. A RAM (Random Access Memory) 240 is a memory that stores various setting values and is used as a work area for performing processing such as calculation of the communication traffic. Further, in the present embodiment, the transmission request interval and the like are stored.

  The timer unit 250 includes a clock transmitter that generates a clock signal at a constant period, and outputs the clock signal to the outdoor unit side communication unit 210 and the traffic calculation interval setting unit 222. Based on the clock signal, the outdoor unit side communication unit 210 broadcasts a transmission request at a predetermined transmission request interval. Further, based on the clock signal, the traffic calculation interval setting unit 222 stepwisely monitors the monitoring period in a predetermined time unit within a range not exceeding a predetermined upper limit value when communication traffic is larger than a predetermined threshold value. Extend.

  Each of the indoor units 30 to 32 includes indoor unit side communication units 301, 311, and 321 (indoor unit side communication means). In response to the transmission request from the outdoor unit side communication unit 210, the indoor unit side communication units 301, 311, and 321 transmit the state notification. The state notification is a signal for the indoor units 30 to 32 to notify their own state, for example, a set temperature, an operation mode, and the like, and is set to the same length for all the indoor units 30 to 32 that are the transmission sources. Therefore, communication traffic in the network of the air conditioning system 1 increases in proportion to the number of indoor units.

  FIG. 2 is a diagram for explaining a traffic calculation method. The data transfer speed in the network of the air conditioning system 1 is, for example, 9600 bps. As shown in FIG. 2A, a pause period of, for example, 23 ms is provided for transmission of one data such as a status notification. During the suspension period, the outdoor unit side communication unit 210 and the indoor unit side communication units 301 to 321 perform data processing. As shown in FIG. 2B, for example, 1-bit parity, 1-bit start bit, and 1-bit stop bit are added to each data, for example, for 8 bits of actual data.

  Therefore, the data length (bit) of one data is the actual data length × (11/8) (bit). The time required for transmitting this data is 1000 × actual data length × (11/8) / 9600 (ms) because the data transfer rate is 9600 bps. A time obtained by adding a pause period of 23 ms provided for transmission of one data is a data time length when one data is transmitted.

  The traffic calculation unit 221 adds the data length for all the transmission requests from the outdoor unit 20 and all the state notifications of the indoor units 30 to 32 that are all data transmitted and received within the network of the air conditioning system 1 within a predetermined monitoring period. And the traffic calculation part 221 calculates the communication traffic of a network by calculating data time length about this all data, and remove | dividing by this monitoring period.

  The extension of the monitoring period and the setting of the transmission request interval will be described below. When the operation of the air conditioning system 1 is started, the traffic calculation unit 221 calculates communication traffic using the transmission request interval set during the previous operation of the air conditioning system 1 as the monitoring period.

  Here, for example, when the calculated communication traffic exceeds the threshold, for example, 50% due to an increase in communication traffic due to the addition of indoor units, the traffic calculation interval setting unit 222 sets the monitoring period to a predetermined extension time. For example, extend by 1 minute.

  The traffic calculation unit 221 calculates communication traffic using a time obtained by adding a predetermined extended time (here, 1 minute) to the monitoring period as a new monitoring period. During this time, the transmission request from the outdoor unit side transmission unit 210 is stopped. Until the communication traffic falls below the threshold value (here, 50%), the extension of the monitoring period and the calculation of the communication traffic are repeated.

  The transmission request interval setting unit 223 sets a monitoring period when communication traffic becomes less than the threshold (here, 50%) as a new transmission request interval. When the monitoring period is extended to an upper limit value, for example, 5 minutes, the transmission request interval is set to the upper limit value (here, 5 minutes).

  The operation of the air conditioning system 1 described above will be described based on the flowchart shown in FIG. When the air conditioning system 1 is activated, the transmission request interval set at the previous activation is read and set (step S1), and the outdoor unit side communication unit 210 transmits the indoor unit side transmission units 301 to 321 to the indoor unit. A transmission request for requesting transmission of a status notification for notifying the status of the machines 30 to 32 is broadcast (step S2).

  Subsequently, the traffic calculation interval setting unit 222 sets the traffic monitoring period by the traffic calculation unit 221 to a value equal to the transmission request interval, and starts a timer with the monitoring period as a set time (step S3). The timer count is performed based on a clock signal generated by the timer 250.

  Upon receiving the transmission request from the outdoor unit communication unit 210, the indoor unit communication units 301, 311, and 321 transmit the state notification to the outdoor unit communication unit 210 (step S4).

  The traffic calculation unit 221 monitors data communication in the network of the air conditioning system 1 and integrates the data length of each data until the timer counts up, that is, until the monitoring period elapses (NO in step S6). (Step S5).

  When the timer counts up, that is, when the monitoring period elapses (YES in step S6), the traffic calculation unit 221 calculates communication traffic in the network of the air conditioning system 1 within the monitoring period (step S7).

  When the communication traffic is equal to or less than the threshold value (50% in this embodiment) (NO in step S8), the outdoor unit side communication unit 210 broadcasts the next transmission request to the indoor unit side transmission units 301 to 321. Transmit (step S2). That is, step S2 to step S8 are repeated every transmission request interval.

  On the other hand, when the communication traffic exceeds the threshold value of 50%, the process proceeds to step S9 (YES in step S9). If the monitoring period at this time is less than 5 minutes which is the upper limit value of the transmission request interval (YES in step S9), the monitoring period is extended by one minute which is a predetermined extension unit by the traffic calculation interval setting unit 222. (Step S10). The traffic calculation interval setting unit 222 further starts a timer for extending the monitoring time, that is, a one-minute timer based on the clock signal generated by the time measuring unit 250 (step S11).

  The traffic calculation unit 221 monitors data communication in the network of the air conditioning system 1 until the one-minute timer counts up, that is, until the extended monitoring period elapses (NO in step S13). The data length is integrated (step S12).

  When the one-minute timer counts up, that is, when the extended monitoring period has elapsed (YES in step S13), the traffic calculation unit 221 performs communication traffic in the network of the air conditioning system 1 during the monitoring period including the extended time. Is calculated (step S14).

  When the communication traffic is equal to or less than the threshold value of 50% (NO in step S15), the transmission request interval setting unit 223 sets the monitoring period including the extended time as a new transmission request interval (step S1). .

  On the other hand, when the communication traffic exceeds the threshold value of 50%, the process proceeds to step S9 (YES in step S15). The processing of steps S9 to S15 is repeated until the communication traffic becomes 50% or less. However, when the monitoring period including the extended time is extended to the upper limit of 5 minutes, the transmission request interval setting unit 223 sets the upper limit value of 5 minutes as the transmission request interval (NO in step S9).

  According to the air conditioning system 1 according to the present embodiment described above, the monitoring period is extended by the traffic calculation interval setting unit 222 until the communication traffic of the network reaches the threshold value (50% in the present embodiment), and the communication traffic becomes the threshold value. The monitoring period when it becomes smaller is set by the transmission request interval setting unit 223 as the transmission interval of the transmission request. Therefore, communication traffic can be suppressed to a threshold value or less, and an appropriate transmission interval can be set without trouble according to the number of indoor units (30, 31, 32). Moreover, even if the number of connected indoor units (30, 31, 32) increases afterwards, an appropriate transmission interval can be set without any trouble.

  Furthermore, according to the air conditioning system 1 according to the present embodiment, a value obtained by adding a pause period necessary for improving communication accuracy to the actual data time length of one state notification is used as the data time length of the state notification, and communication traffic. Therefore, it is possible to calculate the transmission interval so that the suspension period is always ensured.

  Furthermore, according to the air conditioning system 1 according to the present embodiment, the traffic calculation interval setting unit 222 extends the monitoring period until a predetermined upper limit value (5 minutes in the present embodiment) is reached, and the monitoring period is the upper limit. In the case of a value, if the communication traffic calculated by the traffic calculation unit 221 is not smaller than the threshold, the transmission request interval setting unit 223 sets the upper limit value as the transmission interval. Therefore, it is possible to avoid a situation in which the transmission interval becomes too large and the outdoor unit (20) cannot closely monitor the state of the indoor units (30, 31, 32).

  Furthermore, according to the air conditioning system 1 according to the present embodiment, in response to a transmission request from the outdoor unit 20, the indoor units 30 to 32 are signals for notifying their own state, for example, the set temperature and the operation mode. Reply to notification. Therefore, the outdoor unit (20) can monitor the state of the indoor units (30, 31, 32).

  As mentioned above, although the air-conditioning system 1 which concerns on embodiment of this invention was demonstrated, this invention is not limited to this, For example, the following modified embodiment can also be taken.

  (1) In the above embodiment, the data time of one data is obtained by adding a 23 ms pause period, which is used as data processing time and necessary for ensuring communication accuracy, to the actual data time length of one data. In other words, no other data is transmitted during the pause period. Instead, another communication unit that is different from the communication unit that is processing the data after transmitting one data transmits other data during the downtime, effectively using the network's capabilities. You may make it do.

  (2) In the above embodiment, an upper limit (5 minutes in this embodiment) is set for the transmission request interval. When it is clear that the communication traffic falls below a predetermined threshold value (50% in the present embodiment) at the upper limit value, it is not necessary to set an upper limit value for the transmission request interval.

  (3) In the above embodiment, the communication traffic threshold is set to 50%. The setting value of the threshold is not limited to this, and can be set according to the data communication status of the air conditioning system 1.

It is a block diagram which shows the functional structure of the air conditioning system which concerns on embodiment of this invention. It is a figure for demonstrating the calculation method of traffic. It is a flowchart which shows operation | movement of the air conditioning system which concerns on embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Air conditioning system 20 Outdoor unit 210 Outdoor unit side communication part 220 Operation part 221 Traffic calculation part 222 Traffic calculation interval setting part 223 Transmission request interval setting part 230 ROM
240 RAM
250 Timekeeping unit 30, 31, 32 Indoor unit 301, 311, 321 Indoor unit side communication unit

Claims (6)

An air conditioning system in which an outdoor unit (20) and one or more indoor units (30, 31, 32) are connected via a predetermined network,
When each indoor unit (30, 31, 32) receives a transmission request transmitted from the outdoor unit (20), the indoor unit side communication means (301) transmits a transmission response to the outdoor unit (20). 311 and 321)
The outdoor unit (20)
An outdoor unit side communication means (210) for transmitting the transmission request and receiving a transmission response transmitted from the indoor unit (30, 31, 32);
Based on the transmission response received by the outdoor unit side communication unit (210) from when the outdoor unit side communication unit (210) transmits the transmission request until a predetermined monitoring period elapses, in the network Traffic calculation means (221) for calculating communication traffic;
When the communication traffic calculated by the traffic calculation means (221) is larger than a predetermined threshold, an extension means (222) for extending the monitoring period for a fixed time;
Until the communication traffic becomes smaller than the threshold, at the elapse of the monitoring period extended by the extension means (222), the traffic calculation means (221) calculates the communication traffic, and the calculated communication traffic is An air conditioning system comprising: setting means (223) for setting a monitoring period when the transmission period becomes smaller than a threshold as a transmission interval of the transmission request.   The traffic calculation means (221) is a value obtained by adding a predetermined pause period necessary for ensuring communication accuracy to the data time length of one transmission response received by the outdoor unit side communication means (210). The air conditioning system according to claim 1, wherein the communication traffic is calculated based on the calculated data time length. The extension means (222) can extend the monitoring period until a predetermined upper limit is reached,
When the monitoring period is the upper limit value, the setting means (223) sets the upper limit value to the transmission interval when the communication traffic calculated by the traffic calculation means (221) is not smaller than the threshold value. The air conditioning system according to claim 1, wherein the air conditioning system is set as follows.   The air conditioning system according to any one of claims 1 to 3, wherein the transmission response is a state notification for the indoor unit (30, 31, 32) to notify its own state.   The air conditioning system according to any one of claims 1 to 4, wherein the threshold value is 50%. A communication traffic adjustment method in an air conditioning system in which an outdoor unit (20) and one or more indoor units (30, 31, 32) are connected via a predetermined network,
A transmission request step (S2) in which the outdoor unit (20) broadcasts a transmission request for transmitting a transmission response to each indoor unit (30, 31, 32);
When each indoor unit (30, 31, 32) receives the transmission request, a transmission response step (S4) in which each indoor unit (30, 31, 32) transmits a transmission response to the outdoor unit (20). )When,
Based on the transmission response received by the outdoor unit (20) until a predetermined monitoring period elapses after the outdoor unit (20) transmits the transmission request in the transmission request step (S2). A traffic calculation step (S7) for calculating communication traffic in the network;
An extension step (S10) in which the outdoor unit (20) extends the monitoring period for a predetermined time when the communication traffic calculated in the traffic calculation step is larger than a predetermined threshold;
The outdoor unit (20) executes the traffic calculation step (S7) at the elapse of the monitoring period extended by the extension step (S10) until the communication traffic becomes smaller than the threshold value, and executes the traffic calculation step (S7). And a setting step (S1) for setting a monitoring period when the calculated communication traffic is smaller than the threshold as a transmission interval of the transmission request.

Images